Millboard Fascia Board
Millboard Product Specification GuideFascia Board
Dimensions (W x D x H) 146 x 3200 x 16mm
Weight Per Fascia Board 5.2kg
Weights and Measures
The information in this document was correct at the time of going to print, due to our culture of continuous improvement we reserve the right to change the information at any time without prior notice should further tests reveal different results.
Coppered Oak - MEUN32C
Jarrah - MFN320J
Limed Oak - MFN320L
Coppered Oak- MFN320C
Golden Oak - MFN320G
Vintage - MFN320V
Embered - MFN320E
Driftwood/Smoked Oak - MFN320D
Brushed Basalt - MFN320B
Millboard Polyurethane ProfilePolyurethane Resin & Mineral Board (RMB)
Millboard Product Specification GuideFascia Board
Pendulum Test Values
Working specification for all decking boardsPolyurethane Resin & Mineral Board (RMB)
400mm for residential applications 300mm for public space and
commercial applications
50mm max
0 - 2mm gap
4mm gap
Stain Resistant. Non porous, so will not absorb, drink, food, fats etc
UV & weathering stability. Tested in all weathers at temperatures from -20° to 70°
Splinter-free. No real wood content so no splinter
Resistant to algae. Unlike wood there is no protein content to assist algal growth
Does not warp or rot. No timber content that will rot or can be eaten by insects
Low maintenance. No Stains from food and drink spills, no algal growth. No painting required
Environmentally friendly. Base Materials have low impact on global warming and ozone depletion
Dimensional stability. Very minimal movement in the boards
Slip resistant. High grip surface much safer than wood in the wet
Moulded from real oak. Not extruded like plastics. Looks like natural oak
Lost Head fixing using Durafix stainless steel trimhead screws
Low carbon footprint FasciaJoist
25mm minMillboard 20mm min
2mm gap
Working specificationfor all decking boardsFor all applications we recommend ourboards are installed with a 4mm gap between the boards and a 2mm gap at butt ends, this is to facilitate drainage. The maximum unsupported overhang for the boards is 50mm, each cut board must be supported by a minimum of three joists. Each board must be screwed down with 2 x Durafix fixings where a board crosses a joist, 3 x Durafix fixings are recommended at the ends of the boards.
Residential applications(1.5kN/m2 uniform distributedload):
Joists must support boards at 400mm centres if boards are at 90° to joists, if boards are at 45° then joists needs to be set at 300mm centres
Commercial applications(4kN/m2 uniform distributed load):
Joists must support boards at 300mm centres if boards are at 90° to joists, if boards are at 45° then joists need to be set at 240mm centres.
Bullnose edge
Wood Plastic
Composite
Hardwood
Enhanced Grain
Weathered Oak
High Moderate Low
Dry
48
59
58
66
29
51
54
Wet
31
Technical Data
Millboard Product Specification GuideFascia Board
Physical & Mechanical Properties Test Standard Unit Value/Results
Line Load Bearing Test - Peak Load (180mm width, 300mm span centres) BS EN ISO 14125 kN 9.32
Line Load Bearing Test - Peak Load (200mm width, 300mm span centres) BS EN ISO 14125 kN 8.34
Line Load Bearing Test - Peak Load (180mm width, 400mm span centres) BS EN ISO 14125 kN 6.56
Line Load Bearing Test - Peak Load (200mm width, 400mm span centres) BS EN ISO 14125 kN 6.64
Line Load Bearing Test - Peak Deflection (180mm width, 300mm span centres) BS EN ISO 14125 mm 10.75
Line Load Bearing Test - Peak Deflection (200mm width, 300mm span centres) BS EN ISO 14125 mm 9.39
Line Load Bearing Test - Peak Deflection (180mm width, 400mm span centres) BS EN ISO 14125 mm 14.39
Line Load Bearing Test - Peak Deflection (200mm width, 400mm span centres) BS EN ISO 14125 mm 12.36
Line Load Bearing Test - Peak Stress (180mm width, 300mm span centres) BS EN ISO 14125 Mpa 22.75
Line Load Bearing Test - Peak Stress (180mm width, 400mm span centres) BS EN ISO 14125 Mpa 18.32
Line Load Bearing Test - Peak Stress (180mm width, 400mm span centres) BS EN ISO 14125 Mpa 21.36
Line Load Bearing Test - Peak Stress (200mm width, 400mm span centres) BS EN ISO 14125 Mpa 19.46
Point Load Bearing Test - Peak Load (180mm width, 300mm span centres) BS EN ISO 14125 kN 7.14
Point Load Bearing Test - Peak Load (200mm width, 300mm span centres) BS EN ISO 14125 kN 5.78
Point Load Bearing Test - Peak Load (180mm width, 400mm span centres) BS EN ISO 14125 kN 5.52
Point Load Bearing Test - Peak Load (200mm width, 400mm span centres) BS EN ISO 14125 kN 5.65
Point Load Bearing Test - Peak Deflection (180mm width, 300mm span centres) BS EN ISO 14125 mm 5.65
Point Load Bearing Test - Peak Deflection (200mm width, 300mm span centres) BS EN ISO 14125 mm 11.4
Point Load Bearing Test - Peak Deflection (180mm width, 400mm span centres) BS EN ISO 14125 mm 19.33
Point Load Bearing Test - Peak Deflection (200mm width, 400mm span centres) BS EN ISO 14125 mm 15.37
Bending Strength(Textured surface tested) BS EN 310 : 1993 fmN/mm2 13.3
Bending Strength(Textured surface tested) after UV aging BS EN 310 : 1993 fm N/mm2 11.4
Modulus of Elasticity (Textured surface tested) BS EN 310 : 1993 Em N/mm2 896
Modulus of Elasticity(Textured surface tested) after UV aging BS EN 310 : 1993 Em N/mm2 758
Resistance To Static Indentation MOAT 27: 1983 mm 0.1
Physical & Mechanical Properties Test Standard Unit Value/Results
Soft Body Impact MOAT 43 : 1987 mm 0 (no visible damage)
Hard Body Impact MOAT 43 : 1987 mm 0 (no visible damage)
Impact Resistance After Aging BS EN 13245-1 : 2010 - No cracking or damage to top coat
Fixing Pull Out BS EN 1382 : 1999 Fmax (N) 1610.8
Pull Through Resistance of Fixings BS EN 1383 : 1999 Fmax (N) 1124.9
Density BBA kg·m³ 529.75
Reaction To Fire EN 13501-1 : 2007 + A1 : 2009 - Bfl - s1
Slip Resistance - WET (Weathered Oak)
BS EN 14231 PTV`s 54
Slip Resistance - DRY (Weathered Oak)
BS EN 14231 PTV`s 66
Slip Resistance - WET (Enhanced Grain)
BS EN 14231 PTV`s 51
Slip Resistance - DRY (Enhanced Grain)
BS EN 14231 PTV`s 58
Moisture Content BS EN 322 : 1993 (%) 0.6
Ease of Cleaning BBA Bleach, Detergent
Completely removed, with no damage or staining
Resistance to Staining BS EN 438-2 : 2005 Acetone No visible change
Resistance to Staining BS EN 438-2 : 2005 Coffee Slight change of colour, only visible at certain angles
Resistance to Staining BS EN 438-2 : 2005 Sodium Hydroxide
No visible change
Resistance to Staining BS EN 438-2 : 2005 Hydrogen Peroxide
No visible change
Resistance to Staining BS EN 438-2 : 2005 Shoe Polish No visible change
Determination of Swelling in Thickness BS EN 317 : 1993 (Gt) 0.1%
Taber Abrasion ISO 7784-2 mg 261
Tensile Strength Perpendicular to the Plane
BS EN 319 : 1993 N/mm² 1.53
Tensile Strength Perpendicular to the Plane
(After Boiling defined in BS EN 1087-1)
BS EN 319 : 1993 N/mm² 1.31
Dimensional Stability BS EN 318: 2002 65-85rh (mm/m)
0.47
Dimensional Stability BS EN 318: 2002 65,30 mm/m -0.30
Colour Measurement BS 3900 Parts D8-D10 (ISO 7724 Parts 1-3)
D65 Less Red/Yellower
Acoustic Testing AS 1191.2002, AS/NZS ISO 717.1:2004, AS ISO 354 - 2006
Rw 51